Coverart for item
The Resource Ionic polymer metal composites (IPMCs) : smart multi-functional materials and articial muscles, Volume 2, edited by Mohsen Shahinpoor, (electronic book)

Ionic polymer metal composites (IPMCs) : smart multi-functional materials and articial muscles, Volume 2, edited by Mohsen Shahinpoor, (electronic book)

Label
Ionic polymer metal composites (IPMCs) : smart multi-functional materials and articial muscles, Volume 2
Title
Ionic polymer metal composites (IPMCs)
Title remainder
smart multi-functional materials and articial muscles
Title number
Volume 2
Statement of responsibility
edited by Mohsen Shahinpoor
Contributor
Editor
Subject
Language
eng
Summary
A comprehensive resource on ionic polymer metal composites (IPMCs) edited by the leading authority on the subject
Member of
Cataloging source
N$T
Dewey number
620.19204297
Index
index present
LC call number
QD382.C66
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
Shahinpoor, Mohsen
Series statement
RSC smart materials
Series volume
18
http://library.link/vocab/subjectName
  • Conducting polymers
  • Smart materials
Label
Ionic polymer metal composites (IPMCs) : smart multi-functional materials and articial muscles, Volume 2, edited by Mohsen Shahinpoor, (electronic book)
Instantiates
Publication
Copyright
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
  • Cover; Contents; Preface; Chapter 14 Energy Exchange between Coherent Fluid Structures and Ionic Polymer Metal Composites, toward Flow Sensing and Energy Harvesting; 14.1 Introduction; 14.2 Experiments; 14.2.1 Impulsive Loading of a Cantilever Strip; 14.2.2 Impulsive Loading of an Annulus; 14.3 Insights from Modeling and Simulation; 14.3.1 Potential Flow Modeling; 14.3.2 CFD; 14.4 Summary and Conclusions; Acknowledgments; References; Chapter 15 Miniature Pump with Ionic Polymer Metal Composite Actuator for Drug Delivery; 15.1 Introduction; 15.2 IPMC Fundamentals
  • 15.3 Advantages of IPMCs and Current Applications15.4 IPMC Control Techniques; 15.4.1 Development of Miniature Pump Technology; 15.4.2 Overview and Discussion of Miniature Pump Actuation Mechanisms; 15.4.3 Advantages of IPMCs for Drug Delivery Miniature Pumps; 15.4.4 Design and Fabrication of Miniature Pumps; 15.4.5 Valveless Miniature Pumps; 15.4.6 Miniature Pump Design; 15.4.7 Simulation of the Pump; 15.5 Control of IPMC Actuators; 15.5.1 IFT Algorithm; 15.5.2 Online IFT Tuning; 15.5.3 Experimental Results; 15.5.4 Performance Optimization of Valveless Pumps; 15.6 Conclusion; References
  • Chapter 16 Modelling and Characterisation of Ionic Polymer Metal Composite (IPMC) Transducers: From IPMC Infancy to Multiphysics Modelling16.1 Introduction; 16.2 Modelling; 16.2.1 Black-box Modelling; 16.2.2 Grey-box Modelling; 16.2.3 White-box Modelling; References; Chapter 17 Ionic Polymer Metal Composites as Post-silicon Transducers for the Realisation of Smart Systems; 17.1 Introduction; 17.2 IPMC-based Actuators; 17.3 IPMC-based Sensors; 17.4 Smart IPMC-based Devices; References; Chapter 18 Micromachined Ionic Polymer Metal Composite Actuators for Biomedical Applications
  • 18.1 Fabrication of Micromachined IPMC Actuators18.1.1 Fabrication by Surface Micromachining; 18.1.2 Fabrication by Bulk Micromachining; 18.1.3 Fabrication by Micromolding; 18.2 Analysis and Characterization of Micromachined IPMC Actuators; 18.2.1 Investigation of the Dynamic Behavior of Micromachined IPMC Actuators with Molecular-scale Models; 18.2.2 Electrical Circuit Model used to Characterize the Micromachined IPMC Actuator; 18.3 Micromachined IPMC Actuators for Biomedical Applications; 18.3.1 Microgrippers for Endoscopic Surgery
  • 18.3.2 Optical Fiber Enclosed by Four-electrode IPMC Actuators for Directing Laser Beams18.3.3 Helical IPMC Actuators with Rotational and Longitudinal Motions for Active Stents; 18.4 Conclusion; References; Chapter 19 Ionic Polymer Metal Composites: Recent Advances in Self-sensing Methods; 19.1 Introduction; 19.2 MET Sensor; 19.3 SR Sensor; 19.4 HFR Sensor; 19.4.1 Experiment; 19.4.2 Results and Discussion; 19.5 Conclusion; References; Chapter 20 A Continuum Multiphysics Theory for Electroactive Polymers and Ionic Polymer Metal Composites; 20.1 Introduction
Control code
RSC930275421
Dimensions
unknown
Extent
1 online resource (xxiii, 434 pages).
File format
unknown
Form of item
online
Isbn
9781782627234
Level of compression
unknown
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
Label
Ionic polymer metal composites (IPMCs) : smart multi-functional materials and articial muscles, Volume 2, edited by Mohsen Shahinpoor, (electronic book)
Publication
Copyright
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
  • Cover; Contents; Preface; Chapter 14 Energy Exchange between Coherent Fluid Structures and Ionic Polymer Metal Composites, toward Flow Sensing and Energy Harvesting; 14.1 Introduction; 14.2 Experiments; 14.2.1 Impulsive Loading of a Cantilever Strip; 14.2.2 Impulsive Loading of an Annulus; 14.3 Insights from Modeling and Simulation; 14.3.1 Potential Flow Modeling; 14.3.2 CFD; 14.4 Summary and Conclusions; Acknowledgments; References; Chapter 15 Miniature Pump with Ionic Polymer Metal Composite Actuator for Drug Delivery; 15.1 Introduction; 15.2 IPMC Fundamentals
  • 15.3 Advantages of IPMCs and Current Applications15.4 IPMC Control Techniques; 15.4.1 Development of Miniature Pump Technology; 15.4.2 Overview and Discussion of Miniature Pump Actuation Mechanisms; 15.4.3 Advantages of IPMCs for Drug Delivery Miniature Pumps; 15.4.4 Design and Fabrication of Miniature Pumps; 15.4.5 Valveless Miniature Pumps; 15.4.6 Miniature Pump Design; 15.4.7 Simulation of the Pump; 15.5 Control of IPMC Actuators; 15.5.1 IFT Algorithm; 15.5.2 Online IFT Tuning; 15.5.3 Experimental Results; 15.5.4 Performance Optimization of Valveless Pumps; 15.6 Conclusion; References
  • Chapter 16 Modelling and Characterisation of Ionic Polymer Metal Composite (IPMC) Transducers: From IPMC Infancy to Multiphysics Modelling16.1 Introduction; 16.2 Modelling; 16.2.1 Black-box Modelling; 16.2.2 Grey-box Modelling; 16.2.3 White-box Modelling; References; Chapter 17 Ionic Polymer Metal Composites as Post-silicon Transducers for the Realisation of Smart Systems; 17.1 Introduction; 17.2 IPMC-based Actuators; 17.3 IPMC-based Sensors; 17.4 Smart IPMC-based Devices; References; Chapter 18 Micromachined Ionic Polymer Metal Composite Actuators for Biomedical Applications
  • 18.1 Fabrication of Micromachined IPMC Actuators18.1.1 Fabrication by Surface Micromachining; 18.1.2 Fabrication by Bulk Micromachining; 18.1.3 Fabrication by Micromolding; 18.2 Analysis and Characterization of Micromachined IPMC Actuators; 18.2.1 Investigation of the Dynamic Behavior of Micromachined IPMC Actuators with Molecular-scale Models; 18.2.2 Electrical Circuit Model used to Characterize the Micromachined IPMC Actuator; 18.3 Micromachined IPMC Actuators for Biomedical Applications; 18.3.1 Microgrippers for Endoscopic Surgery
  • 18.3.2 Optical Fiber Enclosed by Four-electrode IPMC Actuators for Directing Laser Beams18.3.3 Helical IPMC Actuators with Rotational and Longitudinal Motions for Active Stents; 18.4 Conclusion; References; Chapter 19 Ionic Polymer Metal Composites: Recent Advances in Self-sensing Methods; 19.1 Introduction; 19.2 MET Sensor; 19.3 SR Sensor; 19.4 HFR Sensor; 19.4.1 Experiment; 19.4.2 Results and Discussion; 19.5 Conclusion; References; Chapter 20 A Continuum Multiphysics Theory for Electroactive Polymers and Ionic Polymer Metal Composites; 20.1 Introduction
Control code
RSC930275421
Dimensions
unknown
Extent
1 online resource (xxiii, 434 pages).
File format
unknown
Form of item
online
Isbn
9781782627234
Level of compression
unknown
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote

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